Effect of PEG homopolymer and grafted amphiphilic PEG-palmityl on the thermotropic phase behavior of 1,2-dipalmitoyl-SN-glycero-3-phosphocholine bilayer

Phospholipids covalently attached to polyethylene glycol (PEG-PE) are routinely used for the preparation of long-circulating liposomes. The common preparation procedure for long-circulating liposomes involves use of organic solvent. Although there is a plethora of studies describing the interaction of PEG-PE with bilayers, little is known about the effects of PEG homopolymers and single chain amphiphilic PEG on liposome structure. In the present investigation the interaction of PEG homopolymer and amphiphilic PEG-palmityl conjugate with large multilamellar liposomes composed of 1,2-dipalmitoyl-sn-glycero-phosphocholine was investigated utilizing differential scanning calorimetry. Vesicle and aggregate sizes were determined by dynamic light scattering. DSC thermograms revealed interaction of PEG homopolymer with DPPC when the two are premixed in organic solvent. The data suggest that PEG interacts with the phospholipid acyl chains deep in the bilayer. Several questions are raised regarding the suitability of the current procedure for preparation of long-circulating liposomes which utilizes organic solvent. Incorporation of only 2 mol% 5 kDa PEG-palmityl conjugate completely solubilized DPPC liposomes. Packing geometry of the lipid anchor, irrespective of the polymer molecular weight, is suggested to be the primary factor for successful grafting of hydrophilic polymers on liposomes. Pure PEG-palmityl formed self-assembled organized structures of potential use in the delivery of pearly soluble drugs.